Material winding machine



May 12, 1936. c. c. MccAlN MATERIA WINDINGMAGHINE Filed July 12, 19:53 14 shets-sheet 1 .BY ;WA/MM ATTORA/[ May 12, 1.936. c. c. MccA|N- 2040323 I MATERIA WINDING MACHINE Filed July 12, 1933 14 SfieefS-Sheet 2 May 12, 1936. c. c. MccAlN 2.040,323

MATERIA WI NDING MACHINE I Filed July 12, 1933 14 Sheets-Sheet 3 A TTOR/Yf'y May 12, 1936. c. c. MccAlN MTERIAL WINDING MACHINE Filed July 12, 1933 14 'sheets-sneet 4 Ma'y 12, 1936. 3 C, McCAm.. 2,Q40,323

MATERIA WINDING` MACHINE Filed July 12, 1933 14 SheetS-'Sheet 6 /A/ l/E/V 70/? C. C. Mc 64/4/ ATOR/VEY May 12, 1936- c. c. MccAlN 2.040,323

MATERIA WINDING MACHINE Filed July 12, 1933 14 Sheets-Sheet 7 lWhy 12, 1936- c. c. McAlN MATERIA WINDING MACHINE Filed July 12, 1933 'Bf/w UWM ATM/WH' May 12, 1936. c. c. MccAiN .2.040323 MATERIA WINDNG MACHINE Filed July 12, 1983 14 snee'zs-sheet 10 Arrow/fr z MATERIA WINDING MACHINE May 12, 1936- c. c. MccAlN- 2.040,323

MATERIA WINDING MACHINE Fild July 12, 1933 14 sheets-sneet 12 May 12, 1936. c. c. MccAlN MATERIA WINDING MACHINE Filed July 12, 1953 14 SheetS-Sheet 13 C. C. MCAIN MATERIA WINDING MACHINE Filed July 12, 1935 14 Streets-511881114 May 12, 1936;

BY /fawzzw ATTOR/VEY N;also provided improved automatic means for sup- Ptmed May 12, 1936 PATENTI OFFICE o 2,o40,328 MATERIA WINDI'NG MACHINE Cecil C. McCain, Glen Ellyn, Ill., assignor to J Western Electric Company, Incorporated, New

York, N. Y., a corporation of New York Application July 12, 1933, Serial No. 680,008,

31 Claims. (Cl. 242-56) This invention relates'to material winding machines, and more particularly to a machine for automatically forming electrostatic condensers.

This invention is an improvement over the copending application of Chester A. Purdy, Serial No. 372,818, filed June 22, 1929 now Patent '1,963,318, dated June 19, 1934 on condenser winding machines.

The primary object of this invention is to pro- Vide a compact andefiicient winding machine for automatically and rapidly forming material into condensers.

In 'accordance with the object, one embodiment of the invention contemplates the provision of an automatic condenser winding machine comprising a rotatable win'ding arbor, supply rolls f paper and foil to be fed to the arbor, 'a wrapping unit arranged to advance two strips of paper from the rolls and wrap the forward ends thereof around the arbor and reciprocable feed tables for automatically advancing other strips of paper and foil from the supply rolls so that their forward ends will be received between the convolutions of the paper upon the arbor.

In this embodiment of the invention there are plying `terminals to the condenser while it is being wound, for severing the paper andjfoil in the proper sequence, for ejecting the wound condensers and for repeating the Operations just described.

Other objects and advantages will be apparent from the following description when taken in conjunction with the accompanying drawings, wherein Fig. 1 is a side elevational view of the material winding machine, portions thereof being removed for the purpose of clearness;

Fig. 2 is a front elevational View of the terminal feed mechanism taken substantially along the line 2-2 of Fig. 1;

Fig. 3 is a side elevational view of the paper and foil feeding mechanism showing the actuating means for the wrapping unit; v i

Fig. 4 is an enlarged fragmentary side elevational View of the wrapping unit in normal or inoperative position;

Fig. 5 is a side elevational View of the wrapping unit in operative position;

Fig. 6 is a sectional View taken substantially along the line 6-6 of Fig. 4;

Fig. 7 is a fragmentary top plan View of the wrapping unit taken substantially along line 'l-'l of Fig. 4;

Figs. 8 and 9 are fragmentary sectional views of the wrapping unit respectively showing the positions of the wrapping elements just before and during the Wrapping operation;

Fig. 10 is a sectional view taken along the line |0-I0 of Fig. 6; i 6

Fig. 11 is a fragmentary Vertical sectional view of the reciprocable feed table actuating mechanism taken along the line ll-II of Fig. 12;

Fig. 12 is a fragmentary front elevational View of the paper and foil feeding mechanism shown 10 in Figs. 3 and 11;

^ Fig. 13 is a top plan view of the upper feed table taken along the line |3-l3 of Fig. 3;

Fig. 14 is a sectional view taken along the line u of Fig.' 18; 15

Fig. 15 is alsectional View taken along the line |5-I5 of Fig. 13; A Fig. 16 is a sectional view taken' along the line IB-IB of 1"'ig.13;

Fig. 17 is a horizontal sectional view taken substantially along the line l'l-l'l of Fig. 1;

Fig. 18 is a Vertical sectional view taken along the line |8-I8 of Fig. 1; a

Fig. 19 is a Vertical sectional View of the counting mechanism taken along the line |9-I9 of Fig. 1;

Fig. 20 is a Vertical sectional View of the terminal feed mechanism taken substantially along the line 20-20 of Fig. 2;

Fig. 21 is a Vertical sectional view taken substantially along the line 2l-2l of Fig..2;

Fig. 22 is a Verticalsectional View taken substantially alongthe line 22-22 of Fig. 2;

Fig. 23 is a Vertical sectional view taken sub-` stantially along the line 23-23 of Fig. 2;'

Fig. 24 is a fragmentary front elevational View of the terminal supplying mechanism taken substantially along the line 24-24 of Fig. 20;

Fig. 25 is a horizontal sectional view taken along the line 25-25 of Fig. 24;

Fig. 26 is a Vertical sectional view taken along the line 26-26 of Fig. 24;

Fig. 27 is a fragmentary front elevational view of the terminal feed mechanism 'taken substantially along the line 21-21 of Fig. 20;

Fig. 28 is an enlarged fragmentary top plan View of one of the feed fingers, the View being taken along the line 28-28 of Fig. 27;

Fig.' 29 is a horizontal sectional View taken aong the line 29-29 of Fig. 27;

' Fig. 30 is an enlarged sectional view through one of the feed fingers, the section being taken trating their normal positions, their positions when the lower feed finger releases its terminal and their positions when the upper feed finger releases its terminal;

Fig. 34 is a fragmentary longitudinal sectional view of the cam shaft of the terminal feed mechanism showing the clutch for bringing about its operative connection with a power means;

Fig. 35 is a Vertical sectional view taken along the line 35-35 of Fig. 34;

Fig. 36 is an end elevational view of the actuating means for the clutch shown in Fig. 34;

Fig. 37is a front elevational View of the condenser ejecting means taken along the line 31-31 of Fig. 1, and

Fig. 38 is a wiring diagram illustrating a feature of the invention.

Referring now to the drawings wherein like reference numerals designate similar parts throughout the various views, the numeral 20 designates a winding mechanism including a central Vertical frame 2| secured to a bed plate 22 and supporting on both sides thereof the supply rolls of condenser paper 23, 24, 25 and 26, and tin foil 28 and 29 rotatably mounted on spindles 30 journaled in the sides of the frame 2|. A plurality of anti-friction idler rollers 3| journaled in the frame 2| are provided at suitable positions for supporting and guiding 'the paper and foil to a winding arbor 32.

The present embodiment is provided with two sets of mechanisms, one upon each side of the frame 2| for supplying paper and foil to a winding arbor 32 for each mechanism so that the machine may simultaneously wind two condensers; however, in View of the fact that each set of mechanisms are substantially identical in construction, the description will be concentrated upon one set and will apply equally well to the other.

In order to maintain the proper tension on the tin foil as it is wound on the arbor 32, upper and lower foil brakes 35 are provided and are composed of equalizing members 36 having lateral portions (Figs. 1 and 17) covered with strips of 'material such as felt which is disposed in engagement with the rolls of tin foil 28 and 29. Each foil brake is carried upon the outer end of a lever 31, the other end of which is fixed to the outer end of a shaft 38 extending through the frame 2| and urged in a clockwise direction by a torsion spring 39. The upper foil brakcs are mounted upon the outer. ends of one shaft 38, while the lower foil brakes are mounted upon the outer ends of the other shaft 38.

To properly tension the insulating paper as it is removed from the rolls 23 to 26 inclusive, re-

sistance members 50 (Figs. 1 and 17)v are provided for the upper and lower rolls of paper. The resistance members 50 are in the form of resilient strips of metal pivotally. supported at their centers upon the outer ends of levers 52, the other ends of which are fixed to shafts 53, extending through and journaled in the Vertical frame 2|. A torsion spring 54 is disposed concentric with each of the shafts 53, and by viewing the spring of the upper resistance member, shown in Fig. 17, it will be observed that the inner ends thereof are fixed to adjustable collars 55.' The adjustable collars 55 while the outer ends thereof are fixed tothe frame 2| are rotatably mounted upon the shaft 53 and have notches therein for receiving laterally extending pins of hub members `56 which are fixed to the shaft 53. The tension of aoeoas the spring 54 normally urges the resistance member 50 into intimate engagement'with the rolls of insulating paper, and due to its pivotal connection to the lever 52 equal pressure will be applied to each roll of paper. This pressure may be varied by adjustment of the collars 55 relative to the hub members 56 to vary the force of the spring 54. A similar adjusting means is provided for the torsion Springs 39 (Fig. 17) to vary the tension of the tin foil from the rolls 28 and 29.

The winding arbor 32 has its inner end secured in a spindle 60 journaled in suitable bearings in the latter being fixedly mounted upon the upper end of a Vertical shaft 15. The lower end of the Vertical shaft 15 has a bevel gear 16 fixedly mounted thereupon, which interengages a bevel gear 11 of a horizontal shaft 18, the latter having a gear 19 mounted thereupon and meshing with a pinion of a drive shaft 8|. The drive shaft 8| is operatively connected to any suitable power means, such as a motor hereinafter described.

Mounted upon the shaft 18 is a pinion 85, which interengages a gear 86 of a hollow shaft 81 (Figs. 1 and 18). The hollow shaft 81 is journaled in a bearing 88 carried by the bed plate 22 and has at its inner end a clutch member or sprocket wheel 89. A solid shaft 90, having one end rotatably disposed in the hollow shaft 81 and the other end journaled in a bearing 9| carried by the bed plate 22, has a hub member 92 mounted thereupon for pivotally supporting at 93 a pawl or 'clutch element 94. A latch 95, pivotally supported at 96 and having an arm 91 normally held in general alignment with a vertically extending arm 98 of the pawl 94 by a spring 99, is operatively connected by means of a link |00 to a core |0| of a solenoid |02. The pawl 94 when released by the latch 95 is moved into engagement With the sprocket wheel or clutch member 89 by means of a spring |03.

The solenoid |02 is Controlled by a counting mechanism, indicated generally at |05 (Figs. 1 and v19) through a circuit (hereinafter described) which is closed by contacts of the counting mechanism after a predetermined number of convolutions of material have been wound upon the arbor 32. The counting mechanism is operatively connected to the power means from the shaft 12 (Figs. 1 and 18) upon which is mounted a worm |05 disposed in operative engagement with a worm gear |08 of a shaft |01. The shaft |01 is journaled in a bearing and has a pinion |08 fixed to its upper end and in engagement with a gear |09 of a Vertical shaft ||0, the latter extencling upwardly through a casing and journaled in a bearing carried by a depressed portion of the frame 2|. Secured to the upper end of the shaft ||0 is an electromagnet ||2 carrying an energizing coil |3, the terminals of which are connected to spring contacts |4 and ||5 secured to an insulator |8, which is fixed to the underside of an electromagnet. The spring contacts ||4 and ||5 in turn reslliently engage contacts and ||8,

2,040,323 which slidably contact with rings 119 and 120 yend of the shaft 110 is a smaller shaft 125 to a shoulder 126 of which is secured an iron disk 121 adapted to be attracted and rotated by the electromagnet 112 when it is energized. The shaft 125 terminates at its upper end in a square shank carrying a circular member 130 graduated in revolutions of the winding arbor and on the underside of which is secured one end of a torsion spring 131 having its other end secured to a stationary pin 132. Carried by the shaft 125 is a pair of grounded contacting arms 135 and 136 frictionally rotatable about thecircular member 130 and having clamp nuts 131 for securing the arms to the circular member in predetermined positions according to the number of turns of foil and paper to comprise the particular type of oondenser being manufactured. The arms 135 and 136 are bent in under the circular member 130, the arm 135 carrying a contact 140 adapted to engage a contact 141 mounted in an insulator 142 of the cover plate,A

and the arm 136 carrying contacts 143 and 144 adapted to engage contacts 145 and 146, respectively, mounted in the insulator 142. The contacts 141, 145 and 146 are respectively connected i through terminals 150, 151 and 152 to units hereinafter described. I

When the solenoid 102 (Fig. 18) is energized to actuate the latch 95 and to release the pawl 94, an actuating mechanism for the cutting unit, the wrapping unit and the reciprocable feed tables is operatively connected to the power means through the shaft 90, the hub 92, the pawl 94, the clutch member 89, the hollow shaft 81, the gear 86 and back through the pinion 85, the shaft 18, the gear 19, the pinion 80 and the drive shaft 81. This mechanism comprises a gear (Fig. l), which interengages a pinion 161 mounted upon and fixed to the shaft 90. The gear 160 is mounted upon a shaft 162, which also has mounted thereupon a pinion 163 positioned in engagement with a gear 1611 of a cam shaft 165. The cam shaft 165 is journaled in suitable bearings and has mounted thereupon cams 166, 161, 168 and 169 (Figs. 3, 11 and 12). i The cam. 168 is arranged to actuate a wrapping unit indicated generally at 112 (Figs. 3 to 10 inclusive) and has disposed in 'engagement therewith a cam roller 110 mounted upon the lower arm of an actuating lever 113. The actuating lever 113 is mounted upon'a. pivot shaft m ana has its upper arm connected to a spring 115, which normally urges the lever in a counterclockwise direction and holds the cam roller 110 in engagement with the cam 168.` The upper arm' of the lever 113 is held inA abutting engagement with an adjustable stop 119 carried by an actuating arm 111, the lower end of which is fixed to the pivot shaft 114, while the upper end is connected to a lever upon the bed plate 22. Side members 189 and 190 are fixed to the support 186, the side member 189 having a fiat upper surface 191 terminating at its forward extremity in an arcuate shaped groove 192 (Fig. 10) adjacent to which'is disposed a guide 193 having an arcuate surface 194 merging into the foremost surface of` the groove 192 and serving asa stop member as hereinafter described. The hollow shaft has disposed ,upon

Aone end thereof a semi-circular looking fiange 195, the ends of which are positioned to ride upon the surface 191 of the side member 189 until the fiange abuts the surface 194 of the stop member 193, at which time .the flange may be moved into the arcuate shaped groove 192 by the rotation of the hollow shaft 180 as hereinafter described. A carriage 198 has downwardly projecting portions 199 through which the hollow shaft 180 extends and is rotatable therein. Fixed to the carriage 198 is an arm 200 carrying at its lower extremity a cam roller 201 positioned to ride upon the upper surface of the side member until it reaches a cutaway portion 202 above which a guide finger 203 is disposed for guiding the cam roller 201 downwardly into the cutaway portion 202 and plvoting the carriage 198 about'the hollow shaft 180 to lift the forward end thereof vertically.

Fixed to the upwardly extending portion of the support 186 (Figs. 4 and 5) is a material guide plate 210 which extends forwardly to the position 211 and has a plurality of spaced finge-rs 212 forming slots therebetween through which reciprocable material gripping members 213 extend, the upper surfaces of these members being normally positioned flush with the upper surface of the material guide 210. The material gripping members 213 are U-shaped in general contour and are mounted upon the upper ends of spring pressed plungers 215 which are disposed in cuta- 215 normally urge the material gripping members 213 downwardly into their normal position shown in Fig. 6. The upper extremities of the material gripping members lare movable and rest upo'n springs 221 which serve as cushions when the material or'paper from the rolls 23 and 24 is gripped between the material gripping members 213 and a gripping bar 225. The gripping bar 225 is fixed to the carriage 198 and extends upwardly and over the material gripping members 213, it being provided with a longitudinally extending groove 226 in its lower surface for receiving strips of paper when forced upwardly by the material gripping members.

The lifting cam 218 is slidably disposed in the hollow shaft`180 and has a rounded end 239 extending over the side member 190 and arranged to engage a one-way spring actuated latch cam 231 pivotally carried by a bracket 232 mounted upon the side member 190 an-d soformed that at the beginning of 'the forward movem-ent of the carriage, as her'einafter described, the end 230 of the actuating plunger will engage the cam 231 and be moved inwardly to move the recesses 211 out of registration with the plunger 215 and move the material gripping members 213 upwardly into gripping positions. A downwardly projecting arm 233 integral with the actuating plunger 2|8 is moved with the actuating plunger into the path of a stationary cam 230, which is positioned to move the actuating plunger to the left (Fig. 6) and into its normal position as the carriage |98 reaches its foremost position. The latch cam 23| is so constructed that the lifting cam 2 |8 may pass over it, moving the latch cam about its pivot, during its return to normal position.

At the forward end of the'carriage 198 an inwardly grooved portion 231 is formed in which there is positioned a roller 238 rotatably mounted on conically headed bearings 239 and composed of spaced resilient fiexible portions 200. The fiexible members 240 are somewhat' ball-shaped in general contour and have spacing members which are considerably smaller in diameter disposed therebetween. The bearings 239 are carried by the upper ends of arms 24| (Figs. 4 and 5) which are integral with a sleeve 202 rotatably mounted upon a pivot shaft 263, the ends of the latter being carried by lugs 200 'integral with the carriage |98. A stop pin 245 projecting upwardly from one of the arms 20| limits the forward movement of the roller 238 and a spring 268 disposed concentric with a pin 249, which is connected to one of the arms 20|, normally urges the roller 238 forwardly to engag'e the paper from the rolls 23 and 26 and hold it in intimate engagement with the arbor 32 when the carriage |98 is in the wrapping position shown in Fig. 5.

A tucking arm 255 is rotatably journaled in a bearing 256 and extends longitudinally in the grooved portion 231 of the carriage |98 and is positioned parallel to the axis of the roller 238 and the arbor 32. Arcuate shaped fingers 251 are formed on the tucking arm 255 at spaced positions so that when the tucking arm is rotated they will be moved through an arc to positions between the fiexible members 260 of the roll 238. An arcuate movement is imparted to the outer portion of the tucking arm 255 in view of the fact that it is positioned eccentric with respect to its axis of rotation; that is, with respect to the axis of the portion journaled in the bearing 256 which is indicated at 256. Teeth 259 formed in a periphery of the portion 258 interengage teeth 260 of a rack 26|, the rack being slidably disposed in a groove 262 in the carriage |98. The rack 26| extends rearwardly and has a slot 265 'disposed in the outer end thereof (Fig. 4) into tion,`the paper from the rolls 23 and 26 are fed over their respective idler roller 32, over the material guide plate 2|0, beneath the gripping bar 225 and a resilient tensioning element 210 (Fig. 4) until the forward edges of each strip of paper will fterminate at the forward edge of the carriage |98.

The general operation of the entire machine will be described at the completion of the description of the construction thereof, but in order to more clearly understand the various units, a brief description of the operation thereof will be given at the termination of the description of their construction.

Upon considering briefly the operation of the wrapping unit |12, let it be assumed that the winding arbor 32 is rotating at its low speed, that is, its normal speed during the feeding Operations, the rotation of the arbor being in a oounterclock- Wise direction, and that the pawl 94 (Fig. 1) is moved into engagement with its clutch member 89 to rotate the cam shaft |65 (Fig. 3). During the rotation of the cam shaft |65, the cam |68 will be moved in a counterclockwise direction and as the roller 110 rides upon the high portion of the cam the 'lever |13 will be rocked in a clockwise direction, allowing the actuating arm |11 to be moved in the same direction by a spring 213 (Fig. 12) which is disposed concentric Withl the shaft |14. The actuating arm |`|1 moving in a clockwise direction will move the carriage |98 forwardly and at the beginning of the forward movement of the carriage the actuating plunger 2l8 is moved to the right (Fig. 6) by the cam 23|, lifting the gripping members 2 |3 to cause a gripping of the strips of paper by forcing portions thereof into the groove 226 of the gripping bar 225 so as to move the strips of paper forwardly with the carriage. The carriage is moved forwardly with the strips of paper until the roller 20| engages the guide nger 203 at which position the lifting cam 2|8 is moved into its normal position by the stationary cam 230 engaging the projecting arm 233 thus releasing the paper. The grooved portion 231 of the carriage will then be positioned beneath the arbor 32, and as the roller 20| is moved downwardly into the cutaway portion 202 (Fig. 5) the carriage will be moved upwardly about the hollow shaft |80 in a counterclockwise direction to the position shown in Fig. 5.

When the carriage reaches this position the strips of paper extend over the roll 236 beneath the arbor 32 and over the tucking arm 255. The carriage has reached its foremost and uppermost position, but a further movement is imparted to the actuating arm |11 which movement causes a rotation of the hollow shaft |80. The stop member |93 limits the forward movement of the carriage |98 and acts as a guide for the annular fiange |95 as it moves into the annular groove |92 (Fig. 10) during the further movement of the actuating arm |11Vso as to rotate a hollow shaft |80. Rotation of the hollow shaft 80 swings the lever |61 in a clockwise direction, imparting movement to the rack 26|, which in turn rotates the tucking arm 255 causing the fingers 251 thereof to move around the arbor (Fig. 9), With the strips of paper, tucking themI between the portions of paper extending over the roll 238 and the arbor so that the strips of paper will be frictionally secured to and will continue to be wound upon the arbor during its rotation. The length of time required for tucking the strips of paper in place upon the arbor is very short, therefore, the formation of the cam |68 is such that the tucking fingers 251 are moved into and immediately out of tucking positions, the fiexible members 260 of the roller 238 cooperating to form a gripping means with the arbor during the tucking operation. 3

After the tucking operation has been completed, the wrapping unit is returned to its normal position where it remains until the condenser has been completed and ejected from the machine.

An upper feed table, indicated generally at 215, is substantially identical in construction to a lower feed table 216, with the exception of their respective moving means and for this reason detailed views-of the upper feed table are shown and a general description of the upper feed table will apply equally well to the lower feed table.

As shown in Fig. 1 and Figs. 11 to 15, inclusive,

' the upper feed table 215 consists of a reciprocable support 211 slidably mounted upon transversely extending parallel bars 218 (both shown in Fig. 12), rigidly supported at their upper ends by the frame 2| and at their lower ends by a Vertical frame |81 (Figs.3 and 11).

The reciprocable support 211 extends laterally beyond the paths of each set of paper and foil for each condenser to be wound, but in view of the fact that both the upper feed tables are substantially identical in construction it is only believed necessary to show and describe one of these upper feed tables. As shown in Fig. 14, the support 211 has spaced recesses 290 in its upper surface for ``receiving spaced guide strips 29| which serve to form a table over which strips oi' paper from the rolls and 26 and foil from the roll 29 passes. A cover plate 292 is fixed to the upper surface of the support 211 and over the guide strips 29| (Fig. 14). Other recesses 293 are formed in the upper surface of the support 211 for slidably receiving material guide fingers 294, which are held in frictional engagement with the under surface of the cover plate 292 by spring pressed plungers 295. The upper ends of the material guide fingers 294 are bent at right angles, as indicated at 29.6 (Fig. 15), which bent portions are arranged to be engaged by the adjacent edge of the support 211 while the lower ends of the material guide fingers are slidably disposed in apertures 291 in the Vertical frame |81 and have fixed to their upper surfaces resilie'nt elementsl 298 (Fig. 15), the resiliency of which tends to guide the strips of paper and foil in their movement toward the arbor.

Mounted upon the support 211 are bearings 300 (Figs. 12 to 16, inclusive) in which are rotatably journaled the ends of a shaft The shaft 30| is also journaled in a bearing 302 which is positioned between the bearings 300 and fixed to the support 211. A collar 303 is disposed concentric with the shaft 30|, to which it is fixed and has an aperture 304 therein for receiving one end of a torsion spring 305, which is also disposed concentric with the shaft 30| and has its other end disposed in an aperture in the bearing 302. A U- shaped rocking member 301 has its projecting arms positioned upon each. side of th bearings 300, these arms being apertured to receive the' shaft 30| to which it is rigidly secured. One of, the arms of the U-shaped member, which is indicated at 308, has a lug 309 extending laterally a therefrom and provided with a flat upper surface into engagement with which a. latch 3|0 (Figs.

15 and 16) is urged by means of a spring 3| when the reciprocable U-shaped member 301 is moved into what might be termed its open or inoperative position. The latch 3 |0 is pivoted at 3 |2 and has a downwardly projecting arm 3|3 carrying a rod' `y3|4 at its lower end, which extends across to -the latch 3|0 of the other upper feed table (as shown in Fig'. 14) A roller 3|5 (Fig. 14) is positioned at the center of the rod 3|4 for a purpose hereinafter described.

In the forward portion of the U-shaped rockto engage the material extening over the cover plate 292 (Fig. 14) to firmly hold the material against movement when the gripping pads are in their gripping or operative position shown in Figs. 14 and 15.' Resilient members 324 carried 5 by the gripping pads 322 and having their upper ends engaging the pad controlling element 32| normally hold the gripping pads in their proper relative positions with respect to the controlling element 32 I, yet permit movement rel- 1 ative thereto to preventdamage to the material, that is the foil from the roll 29 and the paper from the rolls 25 and 26.

A hand lever 321 is mounted upon the outer end of the controlling element 32| for manually 1 actuating the controlling element at desired times, such as when Originally feeding the paper or foil to the machine. Means is provided for holding the controlling element 32| in its normal position,

which means is adapted to hold the controlling 20 element in an open position when moved by the hand lever 321. This means consists of a lever 328 fixed to the inner end of the controlling eleand extends downwardly so that the lower end thereof is positioned to abut a lug 335 carried by the Vertical frame 181. A pin 236 carried by the bracket 334 limits the movement of the 'resetting pawl 332 in a counterclockwise direction. The upper feed table is` moved into and held in its uppermost position by a spring 340 (Fig. 1) one end of which is fixed to a lug 34| carried by the Vertical frame 2| and the other end is fixed to a chain 342, which extends over a, sprocket wheel 343 (Figs. 1 and 11) and secured to the support 211` The mechanism for moving the upper feed table 215 downwardly to feed the material from the rolls 25, 26'and 29 to the arbor consists of a Vertical rod 350 slidable in a bearing 35| and operatively connected at its upper 5 end by means of a link 352 to the support 211 and at its lower end by means of a link 353 to a cam arm 354. The cam arm 354 is pivoted at 355 and carries at its lower end a cam roller 356 which is held in engagement with the cam ISS by means of a spring 351.

Prior to the actuation of the cam ISS for moving the upper feed table 215 downwardly, the latch 3|0 is released allowing the torsion spring 305 to swing the rocking member 301 and the feed pads 322 downwardly until the friction elements 323 thereof engage the material positioned therebeneath. The means for releasing the latch 3|0 at a predetermined time consists of a vertically movable plunger 350 slidable in a vertically 6 apertured bracket 36| and having a tapered surface 362 positioned to engage the roller 3|5 of thelatch (Fig. 11) The lower endof' the plunger 330 carries a pin 333 receivable in a slotted end'- of a rocking lever 364 which is-pivoted at 305 and has its other end operatively connected to a reciprocable cutting unit, indicated' generally at 353, by a similar pin, and Jslot connection. When one set of condensers'has been wound, the paper and foil 18 cut by the cutting unit 330 in 7 a manner hereinafter described, and during the actuation of the cutting unit the plunger 360 is moved upwardly to release the latch 3|0 to condition the upper feed table to feed material from the upper rolls 25, 26 and 29 when the cam shaft |65 is rotated.

The lower feed table 216 is shown in its normal position in Fig. 11 and is actuated by the cam |69 which is operatively connected to the support 211 of the lower feed table by a cam lever 310 and a link 31|. The cam lever 310 is pivoted at 312 and has a transversely extending arm 313, the outer end of which is fixed to a spring 314 which constantly holds a cam roller 315, carried by the lower end of the cam lever 310, in engagement with the peripheral surface of the cam |69. The general contour of the cam |69 is such that the lower feed table is first moved to the left (Fig. 11) When the roller 315 rides upon the low portion 311 of the cam |69 until the latch 3|0 thereof engages an adjustable stop 318 to release the U-shaped reciprocable member 301 thereof and allow the gripping pads 322 of the lower feed table to be moved by the portion spring 305 thereof into gripping engagement With the foil from the roll 28. The lower feed table is then moved from its rearmost position to its foremost position as the roller 315 rides over` the high portion 319 of the cam 69 to feed the foil to the arbor. Just before the lower feed table completes its forward movement, the resetting pawl 332 of the lower feed table engages an adjustable stop member 380 to move the U-shaped rocking member 301 thereof about its shaft 30| until it is in its open or inoperative position held by the latch 3|0. The lower feed table is then moved rearwardly to the position shown in Fig. 11 as the cam roller 315 rides down- Wardly upon the intermediate portion 382 of the cam |69.

The cutting unit 366 consists of horizontally disposed cutting knives one of which may be termed an upper cutting knife 385, and the other a lower cutting knife 386, both of which are secured to a bracket 381 mounted upon 'the upper ends of vertically movable spaced rods 388. The rods 388 are slidably mounted in suitable bearings 389 and 390 but one of the rods has disposed concentric therewith a spring 39| engaging the bearing 389 at its upper end and a collar 392 at its lower end, the latter being fixed to the rod so that the spring Will normally urge the cutting unit 366 downwardly. Therefore, the spring 39| is the means for actuating the cutting unit 366 but is controlled by the cam |61.

Carried by the cutting unit 356 is a spring pressed pad or foil clamp 383 which is limited in its downward movement relative to the lower cutting knife 386 by pins 384 which are carried by the foil clamp and extend through elongated slots in the cutting unit where they rest upon the upper edge of the lower cutting knife. When the cutting unit 366 is in its normal position (Fig. 3)'the foil clamp 383 is positioned above the path of the foil from roll 28 but during the doWnWard or cutting stroke of the cutting unit the foil clamp moves the foil into engagement with a stationary abutment 393 where the foil is firmly held during the cutting operation to insure a clean cut and to avoid short circuiting in the finished condenser. A flat air nozzle 394 (Fig. 3) is connected to an air supply (not shown) and is positioned to direct a jet of air between the foil and the abutment 393 to lift and fioat the foil after the cutting operation so that it may be subsequently fed to the arbor. The air nozzle 394 also prevents the paper from the rolls 23 and 24 from sticking to the under surface of the abutment 393.

As shown in Fig. 11 the cam |61 has two drop portions, one of which may be termed the first drop portion 395 and the other a second drop portion 396 connected by an arcuate surface of equal radii, the second drop 396 being lower than the first. A cam lever 391 pivoted at 398 and having its forward end 399 positioned in engagement with the lower end of the spring actuated rod 388 carries a cam engaging finger 400 which rides upon the peripheral surface of the cam |61 and is normally positioned as shown in Fig. 11 adjacent the first drop portion 395. The knives 385 and 386 extend over the paths of the material as shown in Fig. 11 and are so positioned that when the cam |61 is rotated in a counterclockwise direction the cutting unit 366 will be dropped a suflicient distance by the cam engaging finger 400 moving downwardly into the first drop portion 395 to cause the knife 385 to move its serrated cutting edge shown in Fig. 12 through the foil from the roll 29 and the paper from the rolls 25 and 26. This movement of the cutting unit 366 will also move the serrated cutting edge of the cutting knife 386 through the foil from the roll 28 but not through the paper from the rolls 23 and 24. The lapse of time between the cutting of the two strips of foil and the paper from the rolls 25 and 26 is sufi'lcient to allow additional windings of the paper from the lower rolls 23 and 24 to be made upon the arbor, to serve as a protective cover or wrapping for the condenser. This takes place during the rotative distance of the cam |61 from the first drop portion 395 to the second drop portion 396. When the second drop portion 396 of the cam |61 passes beneath the cam engaging finger 400, the cutting unit 366 will be moved downwardly a further distance by the spring 39| causing the lower knife 386 to sever the paper from the rolls 23 and 24. After the cutting Operations have been completed, the cutting unit 366 is moved upwardly by the cam |61 so that it will be out of the way during the subsequent feeding Operations.

When the condenser is half Wound upon the arbor, terminale are automatically inserted in predetermined positions relative to the arbor, the mechanism for inserting the terminals being shown in Fig. 2 and Figs. 20 to 36, inclusive., The driving mechanism previously described is operatively connected to the terminal feeding mechanism, attention being directed to Fig. 2

wherein the shaft 64 is shown extending through the housingV 6| and journaled in a bearing 4| 0. Adjacent the bearing 4|0 and mounted upon the shaft 64 is a pinion 4|| which interengages a gear 4|2 mounted upon one end of a continuously rotating shaft 4|3 (Fig. 34), which extends to the left through a hollow shaft 4|4 in which' it is rotatably disposed. The shaft 4|3 also extends through a clutch collar 4|5 and has a clutch element 4|6 fixed to the outer end thereof. The clutch element 4|6 has disposed in apertures therein a plurality of spring actuated plungers 4|1 extending toward the clutch collar 4|5 and receivable in slots 4 |8 equally spaced in the outer end of the clutch collar. The inner portion of the clutch collar 4|5 is tubular in general contour and is journaled in a bearing 4`|9 where it is operatively connected to the hollow shaft by a tongue and slot connection shown in crosssection in Fig. 35, so as to permit relative movement of the clutch collar and maintain an op- 

